1,722,487 research outputs found
A Flat (CHR)₃-curvature tensor in a Trans-Sasakian Manifold
No full textMatsumoto K. A Flat (CHR)₃-curvature tensor in a Trans-Sasakian Manifold / K. Matsumoto // Algebraic and geometric methods of analysis – 2019 : book of abstr. the Intern. sci. conf., Odessa, 28 May – 03 June 2019 / [Odesa Nat. Acad. of Food Technologies et al.]; аdministrative comm.: B. Egorov (chairman). – Odessa, 2019. – P. 38. – Ref.: 5 tit
A recurrent (CHR)-curvature tensor field in a trans-Sasakian manifold
No full textMatsumoto K. A recurrent (CHR)-curvature tensor field in a trans-Sasakian manifold / K. Matsumoto // Algebraic and geometric methods of analysis – 2020 : book of abstr. the Intern. sci. conf., Odessa, 26–30 May 2020 / [Odesa Nat. Acad. of Food Technologies et al.]; аdministrative comm.: B. Egorov (chairman) et al. – Odessa, 2020. – P. 41
Warped product semi-slant submanifolds in locally conformal Kaehler manifolds
No full textMatsumoto K. Warped product semi-slant submanifolds in locally conformal Kaehler manifolds / K. Matsumoto // Algebraic and geometric methods of analysis: book of abstr. the Intern. sci. conf., Odessa, 31 May – 05 June 2017 / [Odesa Nat. Acad. of Food Technologies et al.]. – Odessa, 2017. – P. 79. – Ref.: 7 tit
First description of the Minnesota Earth System Model for Ocean biogeochemistry (MESMO 1.0)
No full textHere we describe the first version of the Minnesota Earth System Model for Ocean biogeochemistry (MESMO 1.0), an intermediate complexity model based on the Grid ENabled Integrated Earth system model (GENIE-1). As with GENIE-1, MESMO has a 3D dynamical ocean, energy-moisture balance atmosphere, dynamic and thermodynamic sea ice, and marine biogeochemistry. Main development goals of MESMO were to: (1) bring oceanic uptake of anthropogenic transient tracers within data constraints; (2) increase vertical resolution in the upper ocean to better represent near-surface biogeochemical processes; (3) calibrate the deep ocean ventilation with observed abundance of radiocarbon. We achieved all these goals through a combination of objective model optimization and subjective targeted tuning. An important new feature in MESMO that dramatically improved the uptake of CFC-11 and anthropogenic carbon is the depth dependent vertical diffusivity in the ocean, which is spatially uniform in GENIE-1. In MESMO, biological production occurs in the top two layers above the compensation depth of 100 m and is modified by additional parameters, for example, diagnosed mixed layer depth. In contrast, production in GENIE-1 occurs in a single layer with thickness of 175 m. These improvements make MESMO a well-calibrated model of intermediate complexity suitable for investigations of the global marine carbon cycle requiring long integration time
Figs. 13‒17 in New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar
No full textFigs. 13‒17. Trogoderma sharpi sp. n., holotype. 13 ‒ dorsal habitus; 14 ‒ ventral habi-Published as part of Háva, J. & Matsumoto, K., 2021, New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar, pp. 1-12 in Far Eastern Entomologist 433 on page 6, DOI: 10.25221/fee.433.1, http://zenodo.org/record/716605
Figs 1‒6 in New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar
No full textFigs 1‒6. Trogoderma tryznai sp. n., holotype. 1 ‒ dorsal habitus; 2 ‒ ventral habitus; 3 ‒Published as part of Háva, J. & Matsumoto, K., 2021, New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar, pp. 1-12 in Far Eastern Entomologist 433 on page 3, DOI: 10.25221/fee.433.1, http://zenodo.org/record/716605
Figs. 18‒21. Madagascan Dermestidae. 18 in New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar
No full textFigs. 18‒21. Madagascan Dermestidae. 18 ‒ Phradonoma albonotatum (Pic, 1927); 19 ‒ Trogoderma caneparii Háva, 2016; 20 ‒ Trogoderma impressiceps (Pic, 1915); 21 ‒ Trino-Published as part of Háva, J. & Matsumoto, K., 2021, New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar, pp. 1-12 in Far Eastern Entomologist 433 on page 9, DOI: 10.25221/fee.433.1, http://zenodo.org/record/716605
Figs. 7‒12 in New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar
No full textFigs. 7‒12. Trogoderma zhantievi sp. n., holotype. 7 ‒ dorsal habitus; 8 ‒ ventral habitus;Published as part of Háva, J. & Matsumoto, K., 2021, New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar, pp. 1-12 in Far Eastern Entomologist 433 on page 5, DOI: 10.25221/fee.433.1, http://zenodo.org/record/716605
Figs. 22‒24 in New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar
No full textFigs. 22‒24. Trogoderma sahondrae Háva et Baňař, 2017. 22 ‒ elytron; 23 ‒ antennae;Published as part of Háva, J. & Matsumoto, K., 2021, New species and records of Dermestidae (Coleoptera: Bostrichoidea) from Madagascar, pp. 1-12 in Far Eastern Entomologist 433 on page 10, DOI: 10.25221/fee.433.1, http://zenodo.org/record/716605
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